Methodology of Species Diversity Indicators and Terrestrial Vertebrate Numbers Assessment from the Example of the Zone Affected by the Planned Nizhnezeisk Water Reservoir
International Journal of Environmental Protection and Policy
Volume 7, Issue 1, January 2019, Pages: 32-38
Received: Oct. 17, 2018;
Accepted: Nov. 27, 2018;
Published: Apr. 2, 2019
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Sergey Podolsky, Institute of Water Problems, Russian Academy of Sciences, Moscow, Russia; Zeya State Nature Reserve, Zeya, Russia
Vyacheslav Kastrikin, Khingan State Nature Reserve, Arkhara, Russia
Mikhail Parilov, Khingan State Nature Reserve, Arkhara, Russia
Klara Pavlova, Zeya State Nature Reserve, Zeya, Russia
Lilia Levik, Department of Geography, Moscow State University, Moscow, Russia
Comparative assessment of the importance of nature conservation in different shoreline areas has become a relevant task as the strategy of sparing management of natural resources is developed for areas impacted by existing and planned water reservoirs. Integral biodiversity indices that characterize species diversity along with abundance parameters for every animal species sighted were developed for the area that would be influenced by the Lower Zeya Hydropower System (currently at the planning stage). The present article includes lists of mammals, reptiles, and amphibians seen in the area, grading scales for the abundance of species and ecological groups of terrestrial vertebrates, a list of the main biotopes, zoning principles for the areas influenced by the reservoir, formulas for calculating the integral parameters of species diversity and ani-mal abundance, and schematic maps of the spatial distribution of the values of integral indices of richness and nature protection significance of the animal populations. Specific recommendations for strengthening the network of Special Protected Natural Areas are given. This study allows for the conclusion that construction of the Lower Zeya hydropower plant will be associated with a high risk of negative consequences for biodiversity and ecological stability on both the local and regional levels.
Methodology of Species Diversity Indicators and Terrestrial Vertebrate Numbers Assessment from the Example of the Zone Affected by the Planned Nizhnezeisk Water Reservoir, International Journal of Environmental Protection and Policy.
Vol. 7, No. 1,
2019, pp. 32-38.
Antonov, A. I., Kadetova, A. A., Mel’nikova, Yu. A., Parilov, M. P., Kastrikin, V. A., Kochetkov, D. N., and Babykina, M. S. KadastrnazemnykhpozvonochnykhKhinganskogozapovednikaiprilegayushchikhterritorii (Inventory of Terrestrial Vertebrates of the Khingan Nature Reserve and Adjacent Areas), Blagoveshchensk, 2016.
Il’yashenko, V. Yu., Kostenko, V. A., Rodionov, S. P., and Yudin, V. G. Ridge Tukuringra as the zoogeographical boundary, in III S"ezd Vsesoyuznogo Teriologicheskogo obshchestva “Mlekopitayushchie SSSR”, Tezisy dokladov (III All-Union Congr. Teriol. Soc. “Mammals of the USSR,” Abstracts of Papers), Moscow: Nauka, 1982, vol. 1, pp. 115–116.
Kolobaev, N. N., Podol’skii, S. A., and Darman, Yu. A. The effect of Zeya Reservoir on the terrestrial vertebrates (amphibians, reptiles, and mammals), in Zeiskii gos. Prirodnyi zapovednik Goskom ekologii RF (Zeiskii State Nature Reserve, State Ecology Committee of the Russian Federation), Blagoveshchensk, 2000.
Krasnaya kniga Amurskoi oblasti: redkie inakhodyashchiesya pod ugrozoi ischeznoveniya vidy zhivotnykh, rastenii I gribov (The Red Data Book of the Amur Oblast: Rare and Endangered Species of Animals, Plants and Fungi), Blagoveshchensk: Blagoveshch. Gos. Pedagog. Univ., 2009.
Kuz’mina, Zh. V. and Treshkin, S. E. Evaluation of the consequences of hydraulic impacts on the ecosystems of flood-plain hydromorphous and semiautomorphous territories, in Aktual’naya biogeografiya (Current Biogeography), Voprosy Geografii, Moscow: Kodeks, 2012, vol. 134.
Kuzyakin, V. A., Chelintsev, N. G., and Lomanov, I. K. Metodicheskie ukazaniya po organizatsi i, provedeniyu i obrabotke dannykh zimnego marshrutnog oucheta okhotnich’ikh zhivotnykh v RSFSR (Methodological Guidelines for the Organization, Conducting, and Data Processing of Winter Route Counts of Game Animals in the RSFSR), Moscow: Tsentr. Nauchno-Issled. Lab. Glavokhoty RSFSR, 1990.
Novikov, G. A. Polevye issledovaniya ekologii nazemnykh pozvonochnykh zhivotnykh (Field Research of Ecology of Terrestrial Vertebrates), Moscow: SovetskayaNauka, 1953.
Parilov, M. P., Ignatenko, S. Yu., and Kastrikin, V. A. The hypothesis of the influence of long-term hydrological cycles and global climate changes on the population dynamics of Japanese and white-naped cranes and Oriental stork in the Amur River basin, in Vliyanie izmeneniya klimata na ekosistemy basseina reki Amur (Impact of Climate Changes on the Ecosystems of the Amur River Basin), Moscow: WWF Rossii, 2006.
Podol’skii, S. A., Ignatenko, S. Yu., Ignatenko, E. V., Tiunova, T. M., Pavlova, K. P., Kotsyuk, D. V., Antonov, A. I., Mikheev, P. B., Shmigirilov, A. P., Borisova, I. G., and Starchenko, V. M. Methodology of the organization and performance of biodiversity monitoring in the impact areas of hydropower plants using large hydroelectric facilities of the Amur region as an example, Vestn. Dal’nevost. Otd. Ross. Akad. Nauk, 2016, no. 1 (185), pp. 15–25.
Poyarkov, V. S., Methods of quantifying the elk during the rut, in Voprosy ucheta okhotnich’ikh zhivotnykh (Problems of Count of Game Animals), Moscow: Tsentr. Nauchno-Issled. Lab. Okhot. Khoz. Zapoved., 1986, pp. 120–123.
Problemy okhrany I izucheniya dikikh zhivotnykh v zone vliyaniya Bureiskogo gidrouzla (Problems of Conservation and Study of Wild Animals in the Zone of Impact of the Bureya Hydroelectric Facility), Podol’skii, S. A., Ed., Moscow: Ross. Akad. S.-Khoz. Nauk, 2004.
Rusanov, Ya. S. Osnovy okhotovedeniya (Fundamentals of Game Management), Moscow: Mosk. Gos. Univ., 1986.